Systems, devices and methods for sorting items

ABSTRACT

Sorting systems and methods for large quantities of items in industrial processes are described. The systems, devices and methods are for receiving, sorting and removing items dynamically. A first group of items, such as letters or other mail pieces, are injected by a belt into a pocket to a form a first stack, and a divider is extended near the first stack. The divider allows for a second group of items to either be injected to form a second stack behind the divider, or to be diverted and injected into another pocket. The first stack can be removed while the second group is being injected.

INCORPORATION BY REFERENCE TO ANY RELATED APPLICATIONS

Any and all applications for which a foreign or domestic priority claimis identified in the Application Data Sheet as filed with the presentapplication are hereby incorporated by reference under 37 CFR 1.57.

This application claims the benefit of priority to U.S. provisionalpatent application No. 62/348,647, entitled SYSTEMS, DEVICES AND METHODSFOR SORTING ITEMS and filed Jun. 10, 2016, and to U.S. provisionalpatent application No. 62/348,598, entitled SYSTEMS, DEVICES AND METHODSFOR SORTING ITEMS and filed Jun. 10, 2016, the disclosure of each ofwhich is hereby incorporated by reference herein in its entirety for allpurposes and forms a part of this specification.

BACKGROUND Field

This disclosure relates to sorting items. In particular, features fordividing stacks of items with industrial sorting systems are disclosed.

Description of the Related Art

In many industrial concerns, processing large quantities of items iscrucial. For example, many items must be received and handled forsorting, distribution, or are otherwise processed with variousprocessing equipment. Some operations handle thousands or millions ofitems daily.

As an example, mail delivery operations may involve receiving,unloading, transporting and loading thousands of pieces of mail dailyinto trays for further processing and delivery. The high volume of mailitems means more time must be spent on these and other processes.

This is merely one example of an industrial concern that sorts andreceives large quantities of items. Others may include, but are notlimited to, retail concerns with large inventories and high daily sales,high volume component manufacturers such as consumer goods, andimporting concerns with high volume imports needing sorting andreceiving daily.

In these and other contexts, sorting systems and processes may producesorted collections of items in various collection areas. However, thesorted collections of items must be removed from the collection areas sofurther sorting processes may make use of the same collection areas.This and other problems with current approaches lead to processinginefficiencies with each sorted collection of items that in aggregateadd up to significant losses of time over the course of a day or year.

There is therefore a need for improved systems, devices and methods thatallow for more efficient and convenient processing of large volumes ofitems.

SUMMARY

The embodiments disclosed herein each have several aspects no single oneof which is solely responsible for the disclosure's desirableattributes. Without limiting the scope of this disclosure, its moreprominent features will now be briefly discussed. After considering thisdiscussion, and particularly after reading the section entitled“Detailed Description of Certain Embodiments,” one will understand howthe features of the embodiments described herein provide advantages overexisting systems, devices and methods for receiving items.

Features for sorting items are disclosed. In particular, features forsorting large quantities of items in industrial processes are disclosed.Systems, devices and methods are described for receiving, sorting andremoving items dynamically. In some embodiments, a first group of items,such as letters or other mail pieces, are injected by a belt into apocket to a form a stack, a divider is controllably extended near thefirst stack in coordination with further incoming injected items, and asecond group of the items are injected to form a second stack behind thedivider, with the first and second stack at least partially separatedfrom each other by the divider such that the first stack can be removedwhile the second group is being injected. Alternatively, instead of orin addition to forming the second stack, further incoming items may bediverted to another pocket for dynamic allocation of the items. Thus,industrial processes involving sorting large quantities of items areperformed more efficiently due to dynamically controlled dividing of theitem stacks that allows for removal and further processing of some itemswhile further items are simultaneously sorted and received by thesystem.

In a first aspect, a system for sorting items is described. The systemcomprises a pocket, a sorter, a divider and a controller. The pocketcomprises a receiving surface, an inlet, a sidewall located along afirst side of the receiving surface, and a paddle moveably coupled withthe sidewall. The sorter includes an injector disposed proximate thepocket, with the injector configured to inject at least some of theitems along a path into the inlet of the pocket to form a first stack inthe pocket. The divider is disposed proximate an outlet of the injectorand the inlet of the pocket, with the divider having a first side and asecond side opposite the first side, and wherein the divider is moveablebetween a retracted position and an extended position. In the extendedposition, the divider is located between the outlet of the injector andthe inlet of the pocket. In the retracted position, the divider iswithdrawn from the path between the outlet of the injector and the inletof the pocket. The controller is in communicating connection with anactuator. The controller is configured to receive information related tothe items and to actuate the actuator to move the divider between theretracted position and the extended position based on the information.

In some embodiments, the items include a first and a second plurality ofitems, wherein the first plurality of items form the first stack,wherein the injector is further configured to inject the secondplurality of items in the first direction toward the pocket to form asecond stack in the pocket, and wherein the second stack is locatedadjacent to the divider in the extended position with the second side ofthe divider facing generally toward the second stack, such that thedivider at least partially divides the first stack from the second stackto allow removal of the first stack from the pocket while the injectorinjects the second plurality of items.

The system may further comprise a sensor in communicating connectionwith the controller, with the sensor configured to detect acharacteristic of the items, wherein the information related to theitems is based on the detected characteristic. The characteristic may bea size of the first stack or a destination for one or more of the items.The system may further comprise a paddle coupled with the pocket,wherein the first stack forms against the paddle, with the paddleconfigured to move in response to the first stack forming against thepaddle. The sensor may be a switch coupled with the pocket andconfigured to be switched by the paddle as the paddle moves over theswitch.

The system may further comprise a first gripping element coupled with agripping system and configured to remove the first stack of items fromthe pocket. The first gripping element may be configured to remove thefirst stack of items after the divider is moved to the extendedposition. The system may further comprise a second gripping elementcoupled with the gripping system, where the first and second grippingelements are configured to grasp the first stack on two opposite sidesof the stack and to move the grasped first stack into a tray. Thereceiving surface may be configured to receive the first and secondplurality of items to form the first and second stacks thereon, whereinthe sidewall and paddle are configured to position the injected firstplurality of items on the receiving surface and at least partiallyagainst the sidewall and paddle, and wherein the paddle is configured tomove in response to the first stack forming against the paddle.

The system may further comprise a sensor coupled with the sidewall, withthe sensor configured to detect movement of the paddle. The system mayfurther comprise a second pocket, wherein the items include a firstplurality of items and a second plurality of items, wherein the firstplurality of items forms the first stack, and wherein the injector isfurther configured to inject the second plurality of items toward thesecond pocket to form a stack of the second plurality of items in thesecond pocket. The system may further comprise a plurality of thepockets including the first and second pockets, a plurality of theinjectors with each injector located proximate to a corresponding pocketof the plurality of pockets, and a plurality of the dividers with eachdivider located proximate to a corresponding injector of the pluralityof injectors, wherein the sorter is configured to receive and sort thefirst and second pluralities of items based on the information todetermine into which pocket of the plurality of pockets to inject theitems.

In another aspect, a method of sorting items is described. The methodcomprises receiving the items in a sorter, injecting at least some ofthe items toward a pocket comprising a sidewall and a paddle, forming afirst stack in the pocket with the injected items wherein a first itemin the first stack contacts the paddle, and moving a divider to anextended position that is adjacent to the first stack, wherein movementof the divider to the extended position is based on information relatedto at least one of the items.

In some embodiments, the method further comprises detecting acharacteristic of the items, wherein the information related to at leastone of the items is based on the detected characteristic. Thecharacteristic may comprise a size of the first stack or a destinationof one or more of the items. The method may further comprise removingthe first stack of items from the pocket. The method may furthercomprise sorting the items into at least a first and a second pluralityof items, wherein the first plurality of items forms the first stack andthe second plurality of items forms a second stack. The second stack mayform in the pocket behind the extended divider. The second stack mayform in a second pocket different from the first pocket.

In another aspect, a system for sorting items is described. The systemcomprises means for receiving the items in a sorter, means for injectingat least some of the items toward a pocket, means for forming a firststack in the pocket with the injected items, and means for moving adivider to an extended position that is adjacent to the first stack,wherein movement of the divider to the extended position is based oninformation related to at least one of the items.

BRIEF DESCRIPTION OF THE DRAWINGS

The foregoing and other features of the present disclosure will becomemore fully apparent from the following description and appended claims,taken in conjunction with the accompanying drawings. Understanding thatthese drawings depict only several embodiments in accordance with thedisclosure and are not to be considered limiting of its scope, thedisclosure will be described with additional specificity and detailthrough use of the accompanying drawings. In the following detaileddescription, reference is made to the accompanying drawings, which forma part hereof. In the drawings, similar symbols typically identifysimilar components, unless context dictates otherwise. The illustrativeembodiments described in the detailed description, drawings, and claimsare not meant to be limiting. Other embodiments may be utilized, andother changes may be made, without departing from the spirit or scope ofthe subject matter presented here. It will be readily understood thatthe aspects of the present disclosure, as generally described herein,and illustrated in the figures, can be arranged, substituted, combined,and designed in a wide variety of different configurations, all of whichare explicitly contemplated and make part of this disclosure.

FIG. 1A is a perspective view of an embodiment of a loading systemhaving a sorter and stacker system for receiving and sorting the itemsinto multiple stacks in each pocket of the stacker.

FIG. 1B is a perspective view of the pockets of the stacker of FIG. 1Ain which the sorted stacks of items may be formed.

FIG. 2 is a top view of an embodiment of an injector system that may beused with the stacker of FIGS. 1A and 1B to synchronize injection ofitems and movement of a divider to form the stacks of items in thepockets.

FIG. 3 is a partial perspective view of embodiments of pockets andassociated injector systems that may be used to create divided stacks ofsorted items in the pockets of the stacker of FIGS. 1A and 1B.

FIG. 4A is a partial perspective view of the stacker of FIG. 1A showingthe divider in the retracted position and items forming a first stackbehind a paddle in one of the pockets.

FIG. 4B is a perspective view of the stacker of FIG. 4A showing thedivider in the extended position and a second stack of items forming onthe divider behind the first stack, an embodiment of a carriage and traysystem for transport of the sorted items.

FIG. 4C is a perspective view of the stacker of FIGS. 4A and 4B showingan embodiment of a gripping system removing the first stack from thepocket using gripping elements on a robot.

FIG. 4D is a perspective view of the stacker of FIGS. 4A to 4C showingthe gripping system of FIG. 4C placing the first stack into the carriageand tray system of FIGS. 4B and 4C.

FIG. 4E is a perspective view of the stacker of FIGS. 4A to 4D showingthe divider in the retracted position and the second stack of FIG. 4Bcontacting the paddle.

FIGS. 5A and 5B are perspective views of embodiments of a progressivedisplacement divider system that may be used with the various loadingsystems described herein.

FIG. 6 is a block diagram of a control system that may be used tocontrol the various loading systems described herein.

FIG. 7A is a flowchart showing an embodiment of a method for sortingitems that may be performed by the various loading systems describedherein.

FIG. 7B is a flowchart of an embodiment of a method for moving a firstitem into a pocket that may be used with the method of FIG. 7A.

FIG. 7C is a flowchart of an embodiment of a method for forming a firststack that may be used with the method of FIG. 7A.

FIG. 7D is a flowchart of an embodiment of a method for extending adivider that may be used with the method of FIG. 7A.

FIG. 7E is a flowchart of an embodiment of a method for moving a seconditem into a pocket that may be used with the method of FIG. 7A.

FIG. 7F is a flowchart of an embodiment of a method for forming a secondstack that may be used with the method of FIG. 7A.

FIG. 7G is a flowchart of an embodiment of a method for removing a firststack that may be used with the method of FIG. 7A.

DETAILED DESCRIPTION

The following detailed description is directed to certain specificembodiments of the development. Reference in this specification to “oneembodiment,” “an embodiment,” or “in some embodiments” means that aparticular feature, structure, or characteristic described in connectionwith the embodiment is included in at least one embodiment of theinvention. The appearances of the phrases “one embodiment,” “anembodiment,” or “in some embodiments” in various places in thespecification are not necessarily all referring to the same embodiment,nor are separate or alternative embodiments necessarily mutuallyexclusive of other embodiments. Moreover, various features are describedwhich may be exhibited by some embodiments and not by others. Similarly,various requirements are described which may be requirements for someembodiments but may not be requirements for other embodiments.

Various embodiments of the development will now be described withreference to the accompanying figures, wherein like numerals refer tolike elements throughout. The terminology used in the descriptionpresented herein is not intended to be interpreted in any limited orrestrictive manner, simply because it is being utilized in conjunctionwith a detailed description of certain specific embodiments of thedevelopment. Furthermore, embodiments of the development may includeseveral novel features, no single one of which is solely responsible forits desirable attributes or which is essential to practicing theinvention described herein.

Turning to FIG. 1A, a perspective view of an embodiment of a loadingsystem 100 is shown. The loading system 100 may be located in a facilitywhere a high volume of items are received and processed, for examplesorted, and at high frequency, for example, daily. In some embodiments,the illustrated loading system 100 may be located in a mail sortingfacility where a high volume of mail items, such as letters andpackages, are continuously received and processed.

The loading system 100 may include an intake system 120. The intakesystem 120 may be a counter or other receiving structure where an items10 are initially brought into the loading system 100. The intake system120 may provide a surface or surfaces to place the items 10 and/or toanalyze the items. For example, the intake system 120 may have a scanneror imager (not shown) that reads a barcode on the items 10 in order toidentify various characteristics of the items 10, such as destination.The intake system 120 may further include a computer to facilitate withthe intake and processing of the items 10, for example by receiving andsending data to the intake system 120 regarding the received items 10.

The loading system 100 further includes a sorter system 130. The sortersystem 130 may be a large storage and/or conveyor cabinet as shown withvarious pathways for the items 10 to travel. The sorter system 130, inaddition or alternatively to other systems such as the intake system,may also provide equipment to analyze the items. For example, the sortersystem 130 may have a scanner (not shown) that reads a barcode on theitems 10 in order to identify various characteristics of the items 10,such as destination. The sorter system 130 may further include acomputer to facilitate processing of the items 10, for example bysending instructions to the stacker 140 regarding the received items 10.The sorter system 130 is located adjacent or otherwise near the intakesystem 120. As shown, the sorter system 130 is located next to theintake system 120.

In some embodiments, the items 10 may be delivered from the intakesystem 120 to the sorter system 130. For example, the items 10 may beput on a conveyor (not shown) which carries the items 10 from the intakesystem 120 to the sorter system 130. In the sorter system 130 the items10 are sorted or otherwise processed according to desired parameters,such as intended delivery destination, recipient, sender, size,dimensions, shape, priority, and the like. In some embodiments, thesorter system 130 uses data taken at the intake system 120, such as, forexample, from optical character recognition of a surface of the item orscanning a computer readable code, in order to sort the items 10. Forinstance, computer readable codes, such as bar codes, on the items 10may be read at the intake system 120 and this data may be used by thesorter system 130 to sort the items 10. The items 10 travel or otherwisemove through the sorter system 130 en route to other processingequipment, such as a stacker 140.

In some embodiments, the stacker 140 uses data taken at the sortersystem 130, such as, for example, from optical character recognition ofa surface of the item or scanning a computer readable code, in order tosort the items 10. For instance, computer readable codes, such as barcodes, on the items 10 may be read at the sorter system 130 and thisdata may be used by the stacker 140 to sort the items 10. The items 10travel or otherwise move through the sorter system 130 en route to otherprocessing equipment, such as the stacker 140.

The stacker 140 is a structural system with an array of similarcomponents, which may be stacked, on which the items 10 may be placed.The stacker 140 is located near or adjacent to the sorter system 130.The stacker 140 receives the items 10 from the sorter system 130 andstacks, groups, assembles, or otherwise receives the items in variouslocations of the stacker 140.

The stacker 140 includes a plurality of pockets 200 in which the sorteditems 10 may be received. The pockets 200 are arranged in one or morerows 142. The rows 142 are shown extending horizontally with one row 142above another, although other configurations are possible. One or moreof the pockets 200 in a single row 42 may receive items 10 that aregrouped together in some manner, for example by recipient geographicdestination, size, and the like. The pockets 200 are discussed infurther detail below, for example, with respect to FIGS. 1B and 2. Insome embodiments, the items 10 may be mail pieces, such as lettersand/or packages, that are sorted by the sorter system 130 and thenplaced into the proper pockets 200 in the stacker 140. The items 10 maybe routed through various sorting components of the stacker 140, asdiscussed in further detail herein, for example with respect to FIGS. 2and 3. Once the items 10 are sorted into the proper pockets 200, theitems 10 may then be removed from the stacker 140 and transported awayfor further processing.

The pockets 200 each receive items 10 which have been sorted into commongroups by the sorter system 130, based on a common or predeterminedcharacteristic of the item. These groupings may be based on destination,recipient, sender, physical characteristics of the items, and the like.In some embodiments, one pocket 200 is configured to receive a group ofitems intended for a common destination, or which are intended fordestinations within a common route, or which are intended for deliveryto any other common geographic area. The sorter system 130 diverts theitems 10 into designated pockets 200 of the stacker 140, and the itemsbegin to accumulate in the pockets 200. In some embodiments, the sortersystem 130 sends instructions to the stacker 140, which diverts theitems 10 into designated pockets 200 of the stacker 140 based on, forexample, the intended destinations for the items, and the items begin toaccumulate in the pockets 200. The details of these processes will bedescribed in further detail below.

FIG. 1B is a perspective view of a portion of the stacker 140 thatincludes portions of the rows 142 of pockets 200. The pockets 200 act asreceiving areas for the sorted items 10. The pockets 200 may be arrangedvertically, such that each subsequent row 142 is directly above the row142 immediately below it. In some embodiments, the pockets 200 may bearranged at an angle, such that each subsequent row 142 is locatedslightly farther back, or farther from the front of the stacker 140,than the row 142 immediately below it.

As shown in FIG. 1B, only some of the pockets 200 have received items10. Further, the items 10 may form stacks 20. The items 10 in a singlestack 20 may be contacting an adjacent item 10 or items 10 in that samestack 20. Each stack 20 may include two or more of the items 10 arrangedadjacent each other. The stack 20 may include any number of the items10. In some embodiments, the stack 20 may include about five, ten,fifty, one hundred, five hundred, one thousand, or any greater, lesseror in between number of the items 10. Further details of the items 10and stacks 20 are described herein, for example with respect to FIGS. 2,3 and 4A-4E.

FIG. 2 is a top view of an embodiment of an injector 300. To facilitatedescription of the injector 300, the front direction (or “frontward,”“forward,” etc.) and rear direction (or “rearward,” “behind,” etc.) areindicated as shown. The injector 300 may be used with the stacker 140 tosynchronize injection of items 10 and movement of a divider 360 to formthe stacks 20 of items 10 in the pockets 200. The injector 300 islocated rearward of and adjacent to the pocket 200. However, the variouscomponents and features of the injector 300 and the pocket 200 mayoverlap spatially, as described herein. The injector 300 injects theitems 10 into the pocket 200, as further described below.

The injector 300 moves the item 10 along various paths using conveyors,belts, pulleys, rollers, and the like, and ultimately the injector movesthe item 10 into a pocket 300. Generally, as shown, the item 10 travelsalong the direction 1 within the injector 300. The item 10 may bediverted in the stacker 140 and travel in the injector 300 toward thepocket 200 along the direction 1. The item 10 then continues along thedirection 3. The item 10 then travels in the injector 300 along thedirection 3 and into the pocket 200. This process will be described ingreater detail below.

The injector 300 is mounted to a support 302. The support 302 is astructural member that supports the various features of the injector 300and/or the pocket 200. The support 302 may be constructed of a varietyof materials, including but not limited to metals, plastics, othersuitable materials, or combinations thereof. The support 302 may becoupled with and include the shelf 201.

The shelf 201 has a front surface 202 bounded by one or more walls 210.The walls 210 are be projecting, structural components located atvarious locations along the shelf 201. As shown, there are two walls 210extending along opposite sides of the surface 202 of the shelf 201. Insome embodiments, the walls 210 extend vertically upward from sides ofthe surface 202. The walls 210 may be formed from a variety ofmaterials, including metal, plastic, polymer, other suitable materialsand/or combinations thereof. The walls 210 and surface 202 at leastpartially define boundaries of the pocket 200. As shown, each pocket 200is at least partially defined by two walls 210 and the surface 202 ofthe shelf 201. In some embodiments, the support 300 and the shelf 201may be a continuous structure. The items 10 may interact with one of thewalls 210, such as the wall 210 on the right side of the pocket 200 asoriented in the figure, as further described herein.

The injector 300 includes a first pulley 310 and a second pulley 312.The first and second pulleys 310, 312 are rotatably coupled with thesupport 302. The first and second pulleys 310, 312 may rotate, forexample, as shown in a counterclockwise direction as oriented in FIG. 3.

The injector 300 includes a belt 314 disposed on or around the first andsecond pulleys 310, 312. The belt 314 may be an elongated, flexiblematerial that at least partially wraps around the first and secondpulleys 310, 312. As shown, the belt 314 wraps around the first pulley310 and the second pulley 312 such that rotation of the first and secondpulleys 310, 312 moves the belt 314 about the pulleys 310, 312 in thedirections of rotation of the pulleys 310, 312. The belt 314 contactsthe item 10 and moves the item through the injector 300 along thedirection 1. The injector may comprise additional belts and pulleys inorder to control the movement of the item 10, including controllingspeed, direction, and timing of the movement of the item 10.

The injector 300 also includes a third pulley 320 and a second belt 322.The third pulley 320 may be rotatably coupled with the support 302. Thethird pulley 320 may rotate, for example, as shown in a clockwisedirection as oriented in FIG. 3. The injector 300 includes the secondbelt 322 coupled with the pulley 320. The belt 322 may be an elongated,flexible material that at least partially wraps around the pulley 320.As shown, the belt 320 wraps around the third pulley 320 such thatrotation of the third pulley 320 moves the belt 322 about the pulley 320in the direction of rotation of the pulley 320. The belts 314, 322 maybe or act as pinch belts that pinch the items 10 in between the belts atone or more locations along the travel of the items 10. The belts 314,322 may pinch the items 10 to move and/or inject the items 10 into thepocket 200, as described below.

Movement of the belts 314, 322 about the respective pulleys 310, 312,320 facilitates injection of the items 10 into the pocket 200. Once theitem 10 has moved into the injector 300, rotation of the pulley 320moves the belt 322 to move the item 10 along the direction 1. Thepulleys 310, 312 rotate to move the belt 314 to further move the item 10along the direction 1 and toward the pocket 200. The item 10 may bepinched, for example sandwiched, in between the belt 314 and the belt322 as the item 10 moves closer to the pocket 200. When the item 10reaches the portion of the belt 322 wrapped around the pulley 320, theitem 10 may be injected into the pocket 200 along the direction 3.

The injector 300 includes an item sensor 316. The sensor 316 is coupledwith the support 302 at a location along a path of the item 10, forexample near or along the direction 1. The sensor 316 detects thepresence of the item 10 as it travels in the injector 300 and toward thepocket 200. The sensor 316 may be mechanical, electrical, other suitabletypes, or combinations thereof. In some embodiments, the sensor 316 mayalso read information or otherwise detect other characteristics of theitem 10, such as destination, size, priority, etc.

The injector 300 also includes a diverter 318. The diverter 318 may berotatably or otherwise moveably coupled with the support 302. Thediverter 318 may be a wedge or other suitably shaped member that divertsthe items 10 along the direction 1 and past the sensor 216. The diverter318 comprises a surface along the path of the item 10 within theinjector 300, and the item 10 can impinge on the surface. Orientation ofthe diverter 318 and the impinging surface guides the item 10 along apathway, for example, in direction 1. The diverter 318 can rotate orotherwise actuate to move from a first position to one or more otherpositions in order to selectively divert moving items 10 into pockets200 based on control signals from a control system, as further describedherein, for example, with respect to FIG. 6. The item 10 may be divertedtoward the sensor 316 by the diverter 318.

For example, the diverter 318 is actuated when an item 10 moving alongthe sorting system 130 or into the stacker 140 is intended to beinjected into a particular pocket 200. When an item moving to theinjector is intended to be sorted to the pocket 200, the diverter 318actuates to the first position to guide the item 10 into the pocket 200.When an item 10 moving through the stacker 140 is not intended to moveinto the specific pocket 200, the diverter actuates to the secondposition, and the item is not guided into the injector 300, but movesalong the path to another pocket 300. In this way, the diverter 318 isused to move the item 10 into the injector 300 for a given pocket 200.

The injector 300 includes a divider system 350. The divider system 350is coupled with the support 302. In some embodiments, the divider system350 may have its own support. In some embodiments, the divider system350 may be coupled with the pocket 200. In some embodiments, the dividersystem 350 may be spread out among various portions of the injector 300,the pocket 200, other portions of the stacker 140, or combinationsthereof.

The divider system 350 includes an actuator 352. The actuator 352 may beany suitable actuation device or system to create movement. The actuator352 may be mechanical, electrical, other suitable types, or combinationsthereof. In some embodiments, the actuator 352 may be a pneumaticsystem. The actuator 352 may be coupled with a shaft 354. The shaft 354may be moved, for example linearly, by the actuator 352. The shaft 354may be moved in other manners by the actuator 352. The shaft 354 extendsand retracts as the actuator 352 moves. The actuator 352 may actuatealong the directions 5 and 7, as indicated.

The divider system 350 includes the divider 360. The divider 360 iscoupled with the shaft 354 such that the divider 360 moves along withthe shaft 354 when the actuator 352 operates. The divider 360 may extendin the direction 5 and retract in the opposite direction 7, as indicatedin FIG. 2 In some embodiments, the divider 360 and shaft 354 may be anintegral structural member. The divider 360 is an elongated member withgenerally flat opposing sides disposed vertically or perpendicularlywith respect to the support 302. The divider 360 may have a first end362 and a second end 364 opposite the first end 362. As shown, the firstend 362 is coupled with the shaft 352. The second end 364 is locatednear the injected items 10 in the pocket 200. The second end 364 may beflat. In some embodiments, the second end 364 may have an angled orother suitable shape to facilitate movement of the divider 360 into andout of the stacks of items 10. The divider 360 may be configured toactuate and divide the items 10 into separate stacks.

FIG. 2 also depicts the first stack 20 of items 10 in the pocket 200.The injected items 10 form the first stack 20 of items 10. The firststack 20 may include a front item 10A that is contacting the rearwardsurface 220A of a paddle 220. The paddle 220 will be described ingreater detail with reference to FIG. 3. One or more other items 10 maybe stacked on, in contact with, or aligned behind the rearward facingside of a front item 10A. The first stack 20 may include a rear item 10Blocated on the rearward-most side of the first stack 20. Thus, the firststack 20 of items 10 may include the front item 10A contacting thepaddle 220 and the rear item 10B on the rearward side of the stack 20,with one or more other items 10 in between the front and rear items 10A,10B. In some embodiments, there may not be any other items 10 in betweenthe front and rear items 10A, 10B. The items 10 may be injected out ofan outlet of the injector 300 and/or into an inlet of the pocket 200.The outlet of the injector 300 may be the final portion or region of theinjector 300 from which the item 10 is injected. The inlet of the pocket200 may be an initial portion or region of the pocket 220 in which theitem 10 is first received from the injector 300. The outlet of theinjector 300 may include regions of the inlet of the pocket 200, and/orthe inlet of the pocket 200 may include regions of the injector 300, asportions of the injector 300 and the pocket 200 may overlap, asdescribed herein.

The rear item 10B forms the rear end of the first stack 20, with severalitems 10 stacked in between the front and rear items 10A, 10B. Thedivider 360 extends along the direction 5 (as will be explained infurther detail elsewhere herein) as indicated to separate the firststack 20 from further incoming items 10. The next incoming item 10C maybe injected along the direction 3 as indicated. The divider 360 may beextended in the direction 5 to separate the rear item 10B of the firststack 20, for example from the item 10C. The divider 360 may beretracted in the direction 7.

Injected items 10 may also form a second stack 30 of items 10. As shown,the second stack 30 forms against the divider 360 where divider 360 isextended (as shown). Thus, the divider 360 may be extended into, onto,over or otherwise near a rear surface 204 of the pocket 200 and adjacentthe rear item 10B of the first stack 20. The rear surface 204 isdescribed as part of the pocket 200, however it may in addition oralternatively form part of the injector 300. Because the injector 300and pocket 200 are adjacent each other, there may be overlap between oneor more components of the injector 300 and pocket 200, as describedherein. The rear surface 204 may form part of the inlet of the pocket200 described above. The inlet of the pocket 200 may include regionsabove the rear surface of the pocket 200 as well. Thus, the divider 360by extending into the pocket 200 such as over the rear surface 204 mayprevent further items 10 from being incorporated into the first stack 20and allows for easy removal of the first stack 20, as described herein.In some embodiments, the second stack 30 forms on or in contact with thedivider 360. In other embodiments, as further described herein, thefurther incoming items 10 after the first stack 20 has formed and thedivider 360 has extended may instead be diverted to a different pocket200. As shown here, the second stack 30 is formed behind the first stack20 and includes the item 10C as shown. The item 10C is the first item toform the second stack 30, and is in contact with a surface of thedivider 360. The item 10C includes a first end 12C and a second end 14Copposite the first end 12C. The first end 12C may contact a wall 210 ofthe pocket 200 after injection.

The divider system 350 may operate in coordination with the injector300. The divider 360 may be extended such that the second end 364 is inthe shown position as the item 10C is injected. The divider 360 may moveinto position before or while the item 10C is injected. In someembodiments, the divider 360 is extended into the pocket 200 such thatthe second end 364 of the divider 360 is in between the first and secondends 12C, 14C of the item 10C as the item 10C is injected into thepocket 200. In some embodiments, the second end 364 of the divider 360may extend closer to the wall 210, for example the second end 364 maycontact the wall 210. However, the second end 364 need not contact thewall 210. Further details of the operation of the injector 300 incoordination with the divider system 350 are described herein, forexample, with respect to FIGS. 4A to 4E.

The injector 300 includes a rear wall portion 213. As shown, the wall210 extends from the wall body 212 located near the front surface 202 tothe rear wall portion 213 located on the rear surface 204 of the pocket200. The pocket 200 may receive the items 10 from the injector 300 andonto the rear surface 204 such that the items 10 contact the rear wallportion 213. The items 10 may be continually injected into the pocket200 as described to form one or more stacks of the items 10.

The wall 210 includes a body 212 extending along the length of the wall210. The body 212 is a portion of the wall 210 that contacts and guidesthe items 10. The body 212 of the wall 210 guides the items 10 in afront direction, as indicated in FIG. 2. The walls 210 include a rail214. The rail 214 is an elongated member extending along the length ofthe wall 210. The rail 214 is positioned along a top portion of the wall210, such as above the body 212 of the wall 210. The rail 214 may becoupled with protruding portions of the body 212 at opposite ends of thewall 210. The rail 214 provides a support for a paddle 220, and providesa guide for the paddle 220, as described herein.

The pocket 200 includes the paddle 220. The paddle 220 is a structuralmember for receiving and forming a stack 20 of items 10 against thepaddle 220. The paddle 220 may have a generally flat, rearward side 220Aon which or against which the stack 20 forms. The paddle 220 may haveother features to facilitate removal of the stack 20 of items 10adjacent the paddle 220, such as grooves or slots along the side againstwhich the stack 20 forms. The paddle 220 may be coupled with the rail214. The rail 214 may be used to guide the paddle 220 along the lengthof the pocket 210 toward the front and rear. The paddle 220 maytranslate along the rail 214. The paddle 220 may rotate about the rail214, for example about an axis parallel to the lengthwise dimension ofthe rail 214. The paddle 220 may move along the rail 214 as the stack 20of items 10 form. The paddle 220 may then rotate away from the stack 20to allow for removal of the stack 20 from the pocket 200. In someembodiments, the paddle 220 may not rotate. For example, the stack 20may be removed without rotation of the paddle 220. Further detail of themovement of the paddle 220 is described herein, for example with respectto FIGS. 4A to 4E.

FIG. 3 is a partial perspective view of embodiments of injectors 300that are used to create the stacks 20 of sorted items 10 in the pockets200 of the stacker 140. Several pockets 200 are depicted, havinginjectors 300 adjacent to each pocket 200. The injector 300 injects theitems 10 into the pockets 200 as described above. The injector 300 maybe used to inject the items 10 into divided stacks, such as a firststack 20 and a second stack 30.

As shown in FIG. 3, the pockets 200 are formed in part by a shelf 201.The shelf 201 is a generally flat, elongated structure upon which theitems 10 are received after being injected from the injector 300. Theshelf 201 may be any rigid structure capable of supporting the items 10.In some embodiments, the shelf 201 is formed from metal. The shelf 201may be formed from other materials as well, including plastics,polymers, other materials and/or combinations thereof. The shelf 201 isused to hold items 10 as the items 10 await unloading from the shelvesinto trays for transportation to another part of the facility forfurther processing, as will be described in greater detail below.

The shelf 201 has a rear surface 204 that is located rearward of thefront surface 202 as oriented in FIG. 3 and in the directions defined inFIG. 2. The rear surface 204 may be defined as the portion of the shelf201 that is behind the paddle 220. As shown, the rear surface 204 may belocated beyond the rearward ends of the walls 210. In some embodiments,one or both walls 210 may extend along one or both sides of the rearsurface 204. The rear surface 204 is a portion of the shelf 201 wherethe items 10 are initially received into the pocket 200 from theinjector 300. Thus, the stacks 20 initially form on the rear surface 204and extend onto the front surface 202. The rear surface 204 may at leastpartially define the pocket 200. As shown, each pocket 200 is at leastpartially defined by two walls 210, the front surface 202 and the rearsurface 204. The front and rear surfaces 202, 204, or portions thereof,define a receiving region for the items 10.

The pockets 200, include a first sensor 216A and/or a second sensor216B. The first and second sensors 216A, 216B are disposed in the walls210. In some embodiments, there may be more than two sensors 216A, 216B.The sensors 216A, 216B detect the presence of the stacks 20 of items 10and/or other features (such as the paddle 220) in particular locationsof the pocket 200. The sensors 216A, 216B are in communicatingconnection with a control system. The sensors 216A and 216B detect thepresence of stacks and communicate data indicating detection of theitems 10 and stacks 20 to the control system to control the variousparts of the loading system 100, as further described herein, forexample with respect to FIG. 6.

The sensors 216A, 216B may be mechanical, electrical, other suitabletypes, or combinations thereof. The sensors 216A, 216B may be located invarious positions of the pocket 200. As shown, the sensors 216A, 216Bmay be located along the body 212 of the wall 210. In some embodiments,the sensors 216A, 216B may be located in other positions, including butnot limited to the shelf 201 or other portions of the wall 210.

FIGS. 4A to 4E are partial perspective views of the stacker 140 showinga part of the injector 300 and pockets 200 at different points in timeduring injection of the items 10 into the pockets 200. For ease ofdepiction and explanation, some components of the injector 300 are notshown in FIGS. 4A to 4E. Only one of the pockets 200 is shown receivingthe items 10. It is understood that this is for clarity and descriptiononly, and that other pockets 200 may also receive additional items 10with respective portions of the injector 300. The various pockets 200may receive the items 10 concurrently or at different times.

FIG. 4A is a partial perspective view of the stacker 140 showing thedivider 360 in the retracted position and the items 10 forming the firststack 20 on the paddle 220 in one of the pockets 200. As shown, severalitems 10 have been injected into the pocket 20 to form the first stack20. The first stack 20 is formed by the front item 10A contacting therear surface 220A of the paddle 220, and the first stack 20 grows asfurther items are injected by the injector 300. The paddle 220 is shownin a position, for example a rotated position, such that the paddle 220is located near the front surface 202 of the pocket 200. As theadditional items 10 are injected into the pocket 200, the paddle 220 maymove along the direction 9 as indicated. The paddle 220 may move in thedirection 9 while the first stack 20 is forming. By moving, the paddle220 creates more space for additional items 10 to be injected into thepocket 200 and be incorporated into the stacks 20. The paddle 220 may bespring-loaded to provide constant pressure on the stack 20. In additionor alternatively, the paddle 220 may be actuated, for example by anactuator or motor (not shown), to translate and/or rotate the paddle220, as described further herein.

The pocket 200 also includes an edge 221 extending along the length ofthe pocket 200 and adjacent pockets 200. The paddle 220 may move towardthe edge 221 as the first stack 20 grows.

FIG. 4B is a partial view of the stacker 140 showing the divider 360 inthe extended position and a second stack 30 of items 10 forming on thedivider 360 behind the first stack 20. The paddle 220 moves down thepocket in the direction 9 to accommodate items 10 in the pocket 200, andthe first stack 20 grows. The stacker 140 may be in the configurationshown in FIG. 4B at a later point in time as the configuration shown inFIG. 4A. As shown in FIG. 4B, the divider 360 is separating the rearitem 10B of the first stack 20 from the front item 10C of the secondstack 30. Additional items 10 have been injected onto the second stack30 rearward of the front item 10C. The item 10D is the next item beinginjected onto the second stack 30. Extension of the divider 360 into theextended position allows for separation of the first stack 20 fromfurther incoming items 10. Separation of the first stack 20 allows forremoval of the first stack 20, as described herein. It also allows forfurther items 10 to be injected into the same pocket 200 and for thesecond stack 30 to form behind the divider 360 and the first stack 20.In some embodiments, after the divider 360 has extended and the firststack 20 is completely formed, any further incoming items 10 may bediverted to another pocket 200. The divider 360 thus performs multiplefunctions that facilitate efficient sorting and removal of the items 10.

As further shown, items 10 may continue to be injected after the divider360 is extended. Thus, the second stack 30 may begin to form andcontinue to form while the first stack 20 is separated from the secondstack 30 and is available for further processing, such as for removal.The efficiency of the entire loading system 100 is thereby enhanced asitems 10 may be removed from the pocket 200 while additional items 10are injected into that same pocket 200. Thus, the pocket can be usedsimultaneously to remove the first stack 20 and to grow the second stack30, without the need to stop sorting items to the pocket 200 or withoutinterrupting the operation of the stacker 140. In this manner, injectionof items 10 to a single pocket 200 may be continuous and theproductivity of the pocket 200 enhance. The collective increasedproductivity of a plurality of the pockets 200 operated in this mannerand over long periods of time produces much more efficient andproductive sorting and loading of items 10 with the loading system 100.

In some embodiments, the second stack 30 may not form in the indicatedpocket 200. The items in the second stack 30 may be diverted to adifferent pocket 200 by the loading system 100 or stacker 140. Forexample, before or after the divider 360 extends, that pocket 200 maycease to receive additional items until the first stack 20 is removed.Additional items 10 may instead by diverted to another pocket 200. Thediverter 318 may be rotated in order to divert the items 10 to the otherpocket 200. In some embodiments, information from the sensors, such assensor 216A, 216B and/or 316, related to detection of the items 10 maybe received by a control system that diverts the items 10 to anotherpocket 200 in response to such information, as is further describedherein.

The paddle 220 is shown in FIG. 4B moved farther in the direction 9 ascompared to FIG. 4A. In FIG. 4B, the size of the stack 20 has beenincreased for illustrative purposes to clearly show the movement of thepaddle 220. The paddle 220 may be spring-loaded such that it maintainspressure on the front side of the first stack 20 as the stack 20 grows.When the paddle 220 moves to a particular location along the pocket 200,a sensor, such as the sensors 216A or 216B described with respect toFIG. 2, detects the paddle 220 and/or items 10. Detection of the paddle220 and/or items 10 by the sensor can prompt the dividing system 350 toextend the divider 360 into the pocket 200. For example, the controlsystem may be configured to extend the divider 360 when the first stack20 reaches a threshold size indicating that the first stack 20 may beremoved from the pocket 200.

The control system can extend the divider 360 for a variety of reasons.In some embodiments, the control system can extend the divider 360 basedon the identity of the item 10 being injected or to be injected. Forexample, the first stack 20 can comprise items having a firstdistinguishing characteristic, such as a common destination, etc. Whenan item 10 having a different distinguishing characteristic, such as adestination other than the items 10 in the first stack 20, isidentified, or is moving to or through the injector 300, the controlsystem can extend the divider 360 to begin forming the second stack 30with the item having the different destination. Thus, the second stack30 begins to form against the divider 360, and the items from the firststack 20 and the second stack 30 are not in contact with each other ordo not mix with each other. Further, this is just an example of thereasons for extending the divider, and other suitable reasons, such asother suitable distinguishing characteristics, may be employed.

After the divider 360 is extended, the first stack 20 can be removedfrom the pocket 200 and placed in a tray 400. The tray 400 may besupported by a carriage 500. In some embodiments, the tray 400 may besupported by other suitable means. The tray 400 and/or carriage 500 maycouple with the edge 221 (see FIG. 4A) of the shelf 201. The tray 400and carriage 500 may be similar to those described in U.S. patentapplication Ser. No. 14/869,843, filed Sep. 29, 2015, the entirecontents of which are hereby incorporated by reference.

There is a channel 402 connecting the shelf 201 to the tray 400. Theitems 10 may move along the channel 402 from the pocket 2100 and intothe tray 400. The first stack 20 may be removed in a variety of suitablemanners. For example, the paddle 220 may rotate away from the pocket 200in the direction 11 as indicated. Thus, the stack 20 could then be slidinto the tray 400 from the pocket 200. In some embodiments, the firststack 20 may be grasped and removed from the pocket 200 by otherequipment, such as the gripping system 450. Removal of the items fromthe pocket 200 and into the tray 400 may be controlled by a controlsystem and performed in response to the sensors, such as sensors 216A or216B, detecting a threshold amount and/or volume of items in the pocket200, or in response to the characteristics of the items 10. Furtherdetails of a control system that may be used with the system 100 areprovided herein, for example, with respect to FIG. 6. Alternatively orin addition, in some embodiments, the shelf 201 may be angled downwardsuch that rotation of the paddle 220 allows the first stack 20 to fallinto the tray 400 due to gravity.

FIG. 4C is a partial view of the stacker 140 showing an embodiment ofthe gripping system 450. The stacker 140 can be in the configurationshown in FIG. 4C at a later point in time as the configuration shown inFIG. 4B. As shown in FIG. 4C, the gripping system 450 is an industrialmachine or mechanism, such as a robot or other suitable system. Theremay be one or more gripping systems 450. The gripping system 450includes a body 460 coupled with a first gripping element 470 and asecond gripping element 480. The gripping elements 470, 480 may berotatably coupled with the body 460 such that the gripping elements 470,480 may rotate or extend into the pocket 200.

The gripping elements 470, 480 may grip or otherwise retrieve the firststack 20. The first gripping element 470 contacts item 10A, which is thelead item in the first stack 20, or is the item 10 in contact with thepaddle 220. The second gripping element contacts the rear item 10B byinserting itself between the rear item 10B and the divider 360. In someembodiments, the gripping elements 470, 480 may surround the first stack20 and compress it slightly to get a grip on the stack 20. In someembodiments, rotation of the paddle 220 may be initiated based ondetection that the gripping elements 470, 480 have gripped the firststack 20. This is just an example and the paddle 220 may be initiatedfor rotation based on a number of other suitable factors. As shown, thefirst gripping element 470 may contact the front item 10A and the secondgripping element may contact the rear item 10B. The paddle 220 may berotated in direction 11 as shown. In some embodiments, the first andsecond gripping elements 470, 480 can be articulated or comprise one ormore joints controllable to grip the first stack 20. The paddle 220and/or the divider 360 may have features to facilitate insertion of thefirst and second gripping elements 470, 480 about the first stack 20.For example, the paddle 220 and/or divider 360 may have grooves, slotsor other openings (not shown), other suitable features, or combinationsthereof, which may allow the gripping elements 470, 480 to surround thefront and rear ends of the first stack 20.

FIG. 4D is a partial view of the stacker 140 showing the gripping system450 placing the first stack 20 into the tray 400. The stacker 140 can bein the configuration shown in FIG. 4D at a later point in time as theconfiguration shown in FIG. 4C. As shown in FIG. 4D, the grippingelements 470, 480 slide the first stack 20 toward the tray 400 andrelease the stack 20 in the tray 400. In some embodiments, the grippingelements 470, 480 may remove the first stack 20 by lifting or rotatingthe first stack 20 out of the pocket 200 and then placing the stack 20into the tray 400 by rotating the gripping elements 470, 480 toward andinto the tray 400. The tray 400 may be used for transport, for examplefor further processing or delivery, of the sorted stack 20 of items 10.If the paddle 220 has been rotated upward, the paddle 220 may rotate inthe downward direction 8 as indicated. The paddle 220 may move in thedirection 13 toward the rear in order to receive the second stack 30 ofitems 10. The divider 360 may be retracted in the direction 7 asindicated so that the paddle 220 may contact the second stack 30.

In some embodiments, the gripping system 250 may have only a singlegripping element, which can insert between the rear article 10B and thedivider 360, and then push the first stack 20 into the channel 402 andinto the tray 400, after the paddle 220 has moved away from the frontitem 10A.

As further shown, items 10 continue to be injected before, during and/orafter the first stack 20 is removed from the stacker 140. Thus, thesecond stack 30 may begin to form and continue to form while the firststack 20 is being processed. Thus the productivity of the entire loadingsystem 100 is enhanced. The pocket 200 being unloaded into the tray 400can still be designated to receive items 10 from the injector during thepocket unloading. If the pocket 200 was unavailable during unloading,items intended for the pocket 200 would need to be routed to anotherpocket 200, and thus two pockets 200 in the stacker 140 would be in usefor a single destination or route. This leaves fewer pockets 200available to receive items 10 intended for other destinations or routes,and improves the utilization of the stacker 140.

FIG. 4E is a schematic of the stacker 140 showing the first stack 20removed, the divider 360 in the retracted position, the paddle 220 movedrearward relative to the position shown in FIG. 4D, and the second stack30 now contacting the paddle 220. The stacker 140 can be in theconfiguration shown in FIG. 4E at a later point in time as theconfiguration shown in FIG. 4D, and after the first stack 20 has beenunloaded into the tray 400. An additional item 10E is injected onto therear of the second stack 30. Because the first stack 20 has beenremoved, the second stack 30 is now the front stack of items 10. Thus,the second stack 30 may now be processed in the same manner as the firststack 20 as described with respect to FIGS. 4A-4D. A third stack (notshown) may then form behind an extended divider 360 behind the secondstack 30 (which has now become the front stack) and be processed in thesame manner as the second stack 30 as described with respect to FIGS.4A-4E, etc.

FIGS. 5A and 5B are perspective views of embodiments of progressivedisplacement divider systems 600, 601 that are used with the variousloading systems described herein. The systems 600, 601 are used with theinjector 300. The systems 600, 601 may have the same or similar featuresand/or functionalities as the divider system 350, and vice versa. Thesystems 600, 601 may be electromechanical drive systems that coordinateinsertion of the divider 360 with an incoming item 10, for example toreduce or eliminate the likelihood of a jam between the divider 360 andthe items 10. The systems 600, 601 generate a greater extension of thedivider 360 for a given electromechanical input.

As shown in FIG. 5A, the system 600 includes a support 610. The support610 may be coupled with the injector 300, for example with the injectorsupport 302.

The system 600 includes a first linear member 611. The linear member 611is moveably coupled to the support 610 via a track, slot, or othersimilar mechanism that allows the linear member 611 to translatelinearly as described while being retained on the support 610. Thelinear member 611 has teeth 612 for engaging a gear system 620. Theteeth 612 may be located along an edge of the linear member 611. Thelinear member 611 moves, for example, linearly, and is the drive memberof the system 600. The motion of linear member 611 is amplified by thegear system 620, as described below, causing a divider 631 to movefarther and/or at a higher rate, as described below. The linear member611 may be caused to move by an actuator (not shown), such as theactuator 352, other actuators described herein, or by other suitablemovement means.

The system 600 includes the gear system 620. The gear system 620 iscoupled with the support 610. The gear system 620 may include one ormore gears rotatably coupled with the support 610. As shown, the gearsystem 620 includes a first gear 621, a second gear 623, and a thirdgear 625. The first gear 621 has teeth 622 located along the perimeterof the gear 621. The teeth 622 may engage with the teeth 612 of thelinear member 611. Movement of the linear member 611 causes the gear 621to rotate. For example, movement of the linear member 611 to the rightas oriented causes the gear 621 to rotate counterclockwise as oriented.Movement of the linear member 611 to the left as oriented may cause thegear 621 to rotate clockwise as oriented.

The second and third gears 623, 625 are rotatably coupled with thesupport 610 adjacent the first gear 621. The second gear 623 has asmaller diameter than the first gear 621. The second gear 623 has teeth624 located along the perimeter of the gear 623. The teeth 624 of thesecond gear 623 engage with the teeth 622 of the first gear 621. Thesecond gear 623 is fixedly coupled with a larger diameter second gearportion 627. The second gear portion 627 has a larger diameter than thesecond gear 623. As shown, the second gear 623 is attachedconcentrically with the second gear portion 627. The second gear 623 andsecond gear portion 627 may be a monolithic piece. The second gearportion 627 has teeth 628 located along the perimeter of the second gearportion 627.

The third gear 625 has teeth 626 located along the perimeter of the gear625. The third gear 625 may have a smaller diameter than the first gear621. The second gear 623 and the third gear 625 may have the samediameter. The teeth 626 of the third gear 625 engage with the teeth 622of the first gear 621. The third gear 625 is fixedly coupled to a largerdiameter third gear portion 629. The third gear portion 629 may have alarger diameter than the third gear 625. As shown, the third gear 625 isattached concentrically with the third gear portion 629. The third gear625 and third gear portion 629 may be a monolithic piece. The third gearportion 629 has teeth 630 located along the perimeter of the third gearportion 629. In some embodiments, the second and third gears 623, 625may be identical parts.

The first gear 621 engages with the second and third gears 623, 625.Movement of the linear member 611 causes the first gear 621 to rotatewhich then rotates the second and third gears 623, 625. For example,movement of the linear member 611 in a first direction causes the gear621 to rotate counterclockwise as oriented. Movement of the linearmember 611 in a second direction opposite the first direction may causethe gear 621 to rotate clockwise as oriented. Movement of the gear 621causes the second and third gears 623, 625 to rotate. For example,rotation of the gear 621 in the counterclockwise direction as orientedcauses the second and third gears 623, 625 to rotate clockwise asoriented. Rotation of the gear 621 in the clockwise direction asoriented may cause the second and third gears 623, 625 to rotatecounterclockwise as oriented.

The system 600 includes a divider 631. The divider 631 may have the sameor similar features and/or functionalities as the other dividersdescribed herein, for example the divider 360, and vice versa. Thedivider 631 is an elongated structural member made of metal, plastic,polymer, other suitable materials, or combinations thereof. The divider631 has a first end 633 that separates two stacks of items when thedivider 631 is extended. The first end 633 is a portion or region of thedivider 631 that extends at or near the rear of the first stack of itemsand, upon injecting a second stack of items, separates the first andsecond stacks of items. The divider 631 has teeth 632 located along anedge of the divider 631. The teeth 632 engage with the various teeth ofthe various gears to induce movement of the divider 631. The teeth 632engage with the teeth 628 of the large diameter portion 628 of thesecond gear 623. The teeth 632 may engage with the teeth 630 of thelarge diameter portion 629 of the third gear 625. Rotation of the secondand third gears 623, 625 causes the divider 631 to move, for example toextend or retract. For instance, rotation of the second and third gears623, 625 in the clockwise direction causes the divider 631 to extend,i.e. move in the first direction. Rotation of the second and third gears623, 625 in the counterclockwise direction may cause the divider 631 toretract, i.e. move in the second direction.

The gear system 600 provides a mechanical advantage whereby an inputmovement to the system 600, such as an input movement by the linearmember 611, is amplified and results in a larger output movement of thedivider 631 as compared to the input movement. For example, movement ofthe linear member 611 a distance of X may result in movement of thedivider 631 a distance of 2X. This is merely an example, and otheramplifications and/or mechanical advantages may be implemented. Theresulting mechanical advantages are determined based at least in part onthe relative diameters of the various gears 621, 623, 625 and the numberand size of the teeth 622, 624, 626, 628, 630 and 632. The mechanicaladvantage provided by the gear system 600 allows for less inputactuation, with resulting savings in power, time and cost. For instance,the shaft 354 of the divider system 350 may be used as the linear member611. The shaft 354 would therefore not be required to move as far for agiven translation of the divider 360, with corresponding savings inpower, etc. The gear system 600 also provides for space savings. Lessphysical space is required for a divider system 350 having the gearsystem 600 incorporated. For example, if the gear system 600 wereincorporated into the divider system 350 of FIGS. 4A-4E, the shaft 354would not need to move as far with the amplified output movement of thedivider 360.

The divider 631 is inserted into a pocket 200 (as described elsewhereherein) to separate stacks of items. The divider 631 extends to dividethe stack 640 from the stack 650. The stacks 640 and 650 may have thesame features and/or functionalities as the various stacks describedherein, for example the stacks 20 and 30 respectively, and vice versa.As shown, the stack 640 includes a front item 642, one or moreintermediate items 643, and a rear item 644. The front item 642 may havethe same or similar features and/or functionalities as the front item10A, and vice versa. The rear item 644 may have the same or similarfeatures and/or functionalities as the rear item 10B, and vice versa.The stack 650 includes a front item 652 and a rear item 654. The stack650 may also include intermediate items in between the front item 652and the rear item 654. The front item 652 may have the same or similarfeatures and/or functionalities as the front item 10C, and vice versa.The rear item 654 may have the same or similar features and/orfunctionalities as the rear item 10D, and vice versa.

FIG. 5B shows another embodiment of a progressive displacement gearsystem 601. The system 601 may have the same or similar features and/orfunctionalities as the gear system 600, and vice versa. As shown in FIG.5B, the system 601 includes a support 660. The support 660 may have thesame or similar features and/or functionalities as the support 610.

The system 601 includes a first linear member 661. The linear member 661may have the same or similar features and/or functionalities as thelinear member 611. The linear member 661 moves, for example linearly,and is the drive member of the system 601. The motion of linear member661 is amplified by a gear system 602 that includes the first gear 671,a second gear 677 and a third gear 679, as described below, causing adivider 681 to move farther and/or at a higher rate, as described below.The linear member 661 may be caused to move by an actuator, such as theactuator 352, other actuators described herein, or by other suitablemovement means. The linear member 661 has teeth 662 for engaging a firstgear 671. The teeth 662 may be located along an edge of the linearmember 661.

The gear system 602 includes the first gear 671. The first gear 671 mayhave the same or similar features and/or functionalities as the firstgear 621. The first gear 671 is rotatably coupled with the support 660.The first gear 671 has teeth 672 located along the perimeter of the gear671. The teeth 672 may engage with the teeth 662 of the linear member661. Movement of the linear member 661 causes the gear 671 to rotate, asdescribed above.

The second gear 677 and third gear 679 may have the same or similarfeatures and/or functionalities respectively as the second and thirdgears 623, 625. The second and third gears 677, 679 are rotatablycoupled with the support 660 adjacent the first gear 671. The second andthird gears 677, 679 may each have a smaller diameter than the firstgear 671. The second and third gears 677 and 679 have, respectively,teeth 678 and 680 located along the perimeters of the gears. The teeth678 and 680 may engage with the teeth 672 of the first gear 671. In someembodiments, the second and third gears 677, 679 may be identical parts.

The system 601 includes a divider 681. The divider 681 may have the sameor similar features and/or functionalities as the other dividersdescribed herein, for example the dividers 360 or 631, and vice versa.The divider 681 has a first end 683 that separates two stacks of itemswhen the divider 681 is extended. The first end 683 is a portion orregion of the divider 681 that extends at or near the rear of the firststack of items and, upon injecting a second stack of items, separatesthe first and second stacks of items. The divider 681 has teeth 682located along an edge of the divider 681. The teeth 682 may engage withthe teeth 678, 680 of the second and third gears 677, 679. Rotation ofthe second and third gears 677, 679 causes the divider 681 to move, forexample to extend or retract, as described above. Thus, rotation of thesecond and third gears 677, 679 engages directly with the divider 681.The gear system 602 provides a mechanical advantage, as described above,whereby an input movement to the system 650 is amplified and results ina larger output movement of the divider 681 as compared to the inputmovement.

The divider 681 is inserted into the pocket 200 (described above) toseparate stacks 690 and 695 of items. The divider 681 may have the sameor similar features and/or functionalities as the divider 631 describedabove. The first stack 690 includes a front item 692, intermediate items693, and a rear item 694. The second stack 695 includes a front item 696and a rear item 697. The first and second stacks 690, 695 may have thesame or similar features and/or functionalities as the first and secondstacks 640, 650.

FIG. 6 is a schematic of a control system 700 that is used to controlthe various systems described herein, such as the loading system 100,stacker 140 and/or injector 300. As shown, the system 700 includes acontroller 710. The controller 710 includes or is in electricalcommunication with the various sensors and devices described herein forcontrol of the item sorting process. The controller 700 can include oneor more processors, a server, a microcontroller, or other computingdevice, a memory storing operating instruction for controlling operationof the equipment described herein, communication modules, and otherelectronic components. As shown, the controller 710 is coupled (e.g., inelectrical communication) with a scanner 705, a first sensor 720, afirst actuator 730, a second actuator 732, a second sensor 740, a thirdsensor 742, a gripping system 750, and a tray 760. The communication maybe wired or wireless. The scanner 705 is part of the intake system 120,as described herein. For example, the scanner 705 may scan an incomingitem or items for information related to destination, size, priority,etc. and the controller 710 may receive this information from thescanner 705 to appropriately control the system. In some embodiments,the scanner 705 may, in addition or alternatively, be part of anotherpart or parts of the system, such as the injector 300, etc.

The first, second and/or third sensor 720, 740, 742 correspond to thevarious sensors described herein, such as the sensor 216A, 216B or 316.The first and/or second sensor 720, 740 may detect information relatedto the sorting of items, such as the presence of the items 10, thedistinguishing characteristic of the item 10 such as destination, etc.,or other suitable information. This information is communicated to thecontroller 710 for analysis and/or control of the other parts of thesystem, such as the first actuator 730, the second actuator 742, thegripping system 750 and/or the tray 760. For example, the first sensor720 may be a sensor in the intake system 120 or sorter system 130 thatdetects the presence of the item 10 and/or a distinguishingcharacteristic of the item 10, such as destination, etc. As a furtherexample, the control system 700 in response may send a command to theactuator 730 or 732, which may be an actuator to actuate the divertergate 318, to divert the item 10 to a particular pocket 200. The secondsensor 740 may be the sensor 316 in the injector 300 that detects theitem 10 travelling along the direction 1 (shown in FIG. 2). The controlsystem 700 in response may send a command to an actuator 730 or 732 toactuate the divider system 350, thereby extending the divider 360 intothe pocket 200 to divide the item 10 from the first stack 20. The thirdsensor 742 may be the first or second pocket sensor 216A, 216B thatdetects the items 10 and/or paddle 220 in the pocket 200. (See FIG. 3).The control system 700 in response may send a command to the grippingsystem 750 to move the stack 20 from the pocket 200 to the tray 400.Further, in some embodiments there may only be one or two of the sensors720, 740, 742, or there may be more than the three sensors 720, 740,742.

The control system 700 is in electrical communication with the firstactuator 730 and/or the second actuator 732. In some embodiments, theremay only be one of the actuators 730, 732, or there may be more than thetwo actuators 730, 732. The actuators 730, 732 control movement of apart or parts of the system 100. For example, the first actuator 730 maybe the actuator 352 described herein. Thus, the first actuator 730 maycontrol movement, for example extending and/or retracting, of thedivider 360. As another example, the second actuator 732 may control themovement, for example translation and/or rotation, of the paddle 220. Asanother example, the actuator 730 and/or 732 may alternatively orinstead control the movement, for example translation and/or rotation,of the gripping system 450 and/or portions thereof, such as the grippingelements 470, 480. These controls may be in response to informationbased on detecting various characteristics with the sensors 720, 740,742, as described above. Alternatively, the gripping system 450, such asthe gripping system 750, may be controlled independently of theactuators 730, 732 as described below.

The controller 710 is in communication with the gripping system 750. Thegripping system 750 includes various actuators, members, etc. that arecontrollable by the controller 710. The gripping system 750 may have thesame or similar features and/or functionalities as the gripping system450. The control system 700 may control movement, for example locomotionof the gripping system 750. The control system 700 may control portionsof the gripping system 750. For example, the control system 700 maycontrol rotation or other movement of gripping elements of the grippingsystem 750, such as the gripping elements 470, 480 of the grippingsystem 450. The controller 710 may thus command the gripping system 750to move to a particular pocket 200 and to remove the stack 20 of items10 from that pocket 200.

The control system 700 is in communication with tray 760. In someembodiments, the control system 700 may not include the tray 760. Thetray 760 may have the same or similar features and/or functionalities asthe tray 400 or associated components such as the carriage 500. Thecontrol system 700 may control movement, for example locomotion, of thetray 400 and/or carriage 500. For example, the controller 710 maycommand the carriage 500 to move to a particular pocket 200. The controlsystem 700 may control portions of the tray 400 and/or carriage 500. Forexample, the control system 700 may control movement of portions of thetray 400 such that the tray 400 is configured to receive the items 10from the pocket 200. Movement of the tray 760 may be in response todetecting various characteristics with the sensors 720, 740, 742, asdescribed above. For example, the sensor 720 may detect items 10intended for a particular pocket 200, and in response the control system700 may send a command for the tray 400 to move to that pocket 200 forreceipt of the items 10.

FIG. 7A is a flowchart showing an embodiment of a method 800 for sortingitems that may be performed by the various systems described herein. Themethod 800 may be performed by the loading system 100, the stacker 140,the injector 300, the pocket 200, portions thereof, or combinationsthereof. FIGS. 7B to 7G are flowcharts showing embodiments of methodsfor performing the steps of method 800.

As shown in FIG. 7A, the method 800 begins with step 810 wherein a firstitem is moved onto a shelf. The various items and shelves describedherein may be used in step 810. For example, in step 810 the item 10A isinjected into the pocket 200 on the shelf 201.

The method 800 then moves to step 820 wherein the first stack 20 isformed as one or more items 10 are injected into the pocket 200 on theshelf 201 behind the item 10A to form the first stack 20. Step 820 mayalso include rear item 10B being injected onto the first stack 20.

The method 800 then moves to decision state 823 wherein it is determinedif the first stack 20 is ready for removal from the pocket 200. Indecision state 823 the sensor 216A or 216B detects the items 10 orpaddle 220 at a particular location of or distance within the pocket200. In some embodiments, in decision state 823 it is determined thatthe first stack 20 is ready for removal if the sensor 316 detects aspecific number of items 10 has passed through the injector 300. In someembodiments, in decision step 823 it is determined that the first stackis ready for removal if the sensor 216A detects the items 10 in thefirst stack and if the sensor 216B detects the paddle. In someembodiments, in decision step 823 it is determined that the first stackis ready for removal if a particular characteristic of incoming itemshas been detected, such as destination, size, other characteristics, orcombinations thereof. For example, the first stack 20 may be ready forremoval when subsequent items, having different characteristics, such asa different delivery destination or assigned route, from the items 10already in the first stack 20, are detected at the sensor 316, or whenthe sorter 130 knows an item 10 having a different destination is to beinjected into a pocket 200. Thus various approaches may be taken todetermine whether the first stack is ready for removal in decision step823.

If it is determined in decision step 823 that the first stack is notready for removal, the method 800 then returns to step 820 to furthergrow the stack with items.

If it is determined in decision state 823 that the first stack is readyfor removal, the method 800 then moves to step 830 wherein the divider360 is extended by the divider system 350 into the pocket 200. In someembodiments, the divider 360 may be extended in step 830 to thepositions shown in FIGS. 4B to 4D. As another example, step 830 mayinclude the divider 631 or 681 extended respectively by the progressivedisplacement system 450 or 650 adjacent the stack 640 or 690.

The method 800 then moves to step 840 wherein the item 10C is injectedinto the pocket 200 on the shelf 201 behind the extended divider 360.

The method 800 then moves to step 850 wherein one or more items 10 areinjected into the pocket 200 behind the item 10C form the second stack30. Step 850 may also include rear item 10D being injected onto thesecond stack 30.

The method 800 then moves to step 860 wherein the first stack is removedfrom the shelf. The various stacks, shelves and gripping systemsdescribed herein may be used in step 860. For example, step 860 mayinclude the gripping system 860 removing the first stack 20 from theshelf 201.

The method 800 then moves to decision step 862 wherein it is whether thesensor 216A or 216B detects the stack 20 or 30 on the shelf 201. If thea stack is detected on the shelf 201 by the sensor 216A or 216B, themethod 800 moves back to step 860 for removal of the stack 20.

If in step 862 the sensor does not detect the stack of items 10 orpaddle 220, the method 800 moves to step 870, wherein the divider 360 isretracted by the divider system 350 out of the pocket 200. In someembodiments, the divider 360 may be retracted in step 870 to thepositions shown in FIG. 4A or 4E. As another example, in step 870 thedivider 631 or 681 is retracted respectively by the progressivedisplacement system 450 or 650 away from the stack 650 or 695.

FIGS. 7B to 7G are flowcharts showing embodiments of methods forperforming the steps of method 800. FIG. 7B is a flowchart of anembodiment of the step 810. As shown, the step 810 begins with thesub-step 812 wherein a first item is injected via the belts 314 and 322of injector 300 inject the item 10A into the pocket 200. The diverter318 may also actuate in sub-step 812 to divert the item 10A along thedirection 1 for insertion along the direction 3. The step 810 thencontinues with sub-step 814 wherein the the item 10A contacts the rearwall portion 213 in the pocket 200.

The step 810 then continues with sub-step 816 wherein the item 10A comesto rest on the shelf 201 and against the paddle 220. The step 810 thenmoves to sub-step 818, where the method 810 moves to step 820 of FIG. 7Aand performs as described herein.

FIG. 7C is a flowchart of an embodiment of the step 820. As shown, thestep 820 begins with sub-step 821 where it proceeds from step 810.Sub-step 821, and similar “proceed from” sub-steps described herein, arefor purposes of clarity to show that the sub-steps may be performed aspart of a larger, overall method. For instance, FIG. 7C is an embodimentof step 820 that may be a part of the larger, overall method 800.

The step 820 continues with the sub-step 822 wherein an additional itemis injected onto the shelf behind the first item. For example, in step820 one or more of the items 10 are injected by injector 300 onto theshelf 201 behind the item 10A. The step 820 then continues with sub-step824 wherein a first stack is formed with the additional items behind thefirst item. For example, in step 820 the rear item 10B may be injectedby the injector 300 against the additional items 10 to form the firststack 20.

Step 820 then continues with sub-step 826 wherein the first stack 20grows and pushes the paddle 220 forward. In some embodiments, the paddle220 is moved forward by a motor or actuator to accommodate the receiveditems 10 in the first stack 20. In some embodiments, the paddle 220 isspring-loaded so that in sub-step 826 the paddle 220 maintains contactwith the first stack 20 as the paddle 220 moves. In some embodiments ofsub-step 826, the actuator 730 may be used to move the paddle 220, whichmay be moved incrementally in discrete amounts or continuously as items10 are injected into the pocket 200 and against the paddle 220. Theitems 10 may exert a force on the first stack 20 that causes the paddle220 to move. In some embodiments, the shelf 201 may be angled such thatgravity causes or facilitates the movement of the paddle 220 with thefirst stack 20 as the first stack 20 grows and pushes on the paddle 220.

The step 820 then continues to sub-step 828 where the step 820 proceedsto decision step 823 of FIG. 7A and performs as described elsewhereherein.

FIG. 7D is a flowchart of an embodiment of the step 830. As shown, thestep 830 begins with sub-step 831 where it proceeds from step 820. Thestep 830 continues with the sub-step 832 wherein the sensors 216A or216B detect the presence of the stack 20 or 30 of the items 10 and/orthe presence of the paddle 220. Sub-step 832 may also include detectionof items 10 in the injector 300, for example with the sensor 316. Insome embodiments, in sub-step 830 the sensors 720 and/or 740 detect theitems 10 or paddle 220.

The step 830 then continues to sub-step 834 where a divider is extendedbehind the first stack. For example, the divider 360 may be extendedbehind the first stack 20 by the actuator 352, as described herein. Thestep 830 then continues to sub-step 836 where the method 830 proceeds tosub-step 840 of FIG. 7A or 7E and performs as described herein.

FIG. 7E is a flowchart of an embodiment of the step 840. As shown, thestep 840 begins with sub-step 841 where it proceeds from the step 830.The step 840 continues with the sub-step 842 wherein the belts 314 and322 of injector 300 inject the item 10C into the pocket 200. Thediverter 318 may also actuate in sub-step 842 to divert the item 10Calong the direction 1 for insertion along the direction 3. The step 840then continues with sub-step 844 wherein a leading edge of the seconditem contacts a sidewall. For example, in sub-step 844 the first end 12Cof the item 10C contacts the rear wall portion 213 in the pocket 200.The step 840 then continues with sub-step 846 wherein the second itemrests against the divider and the shelf. For example, the item 10C insub-step 846 comes to rest on the shelf 201 and against the divider 360.The step 840 then continues to sub-step 848 where the method 840proceeds to step 850 of FIG. 7A or 7F and performs as described herein.

FIG. 7F is a flowchart of an embodiment of the step 850. As shown, thestep 850 begins with sub-step 851 where it proceeds from step 840. Thestep 850 continues with the sub-step 852 wherein additional items areinjected onto the shelf behind the second item. For example, in step 850one or more of the items 10 are injected by injector 300 onto the shelf201 behind the item 10C. The step 850 then continues with sub-step 854wherein a second stack is formed with the additional items behind thesecond item. For example, in step 850 the rear item 10D is injected bythe injector 300 against the additional items 10 to form the secondstack 30. The step 850 then continues to sub-step 856 where the method850 proceeds to step 860 of FIG. 7A and performs as described herein.

FIG. 7G is a flowchart of an embodiment of the step 860. As shown, thestep 860 begins with sub-step 860A where it proceeds from step 850. Thestep 860 continues with the decision sub-step 860B where it isdetermined if the sensor 216A or 216B detects the items 10 or paddle 220at a particular location of the pocket 200. Decision sub-step 860B mayinvolve the same or similar approaches as decision step 823, asdescribed for example with respect to FIG. 7A. If the sensor detects thepaddle or items in decision sub-step 860B, then the method 860 moves tosub-step 861. However, if in decision sub-step 860B the sensor does notdetect the item or paddle, the method 860 moves to sub-step 860C whereit returns to step 850 to further grow the second stack of items.

If it is determined in decision sub-step 860B that the sensor 216A or216B detects the items 10 or the paddle 220, the method 860 moves tosub-step 861 wherein a tray is positioned to receive the items. Forexample, in sub-step 861 the tray 400 is positioned as shown in FIG. 4Badjacent the shelf 201 for receiving the first stack 20 of sorted items10. The tray 400 may be positioned on the carriage 500 and transported,either manually or automatically, to the corresponding pocket 200 forreceipt of the stack 20.

The step 860 continues with sub-step 862A wherein the gripping system450, such as a robot, is positioned adjacent the pocket 200 of shelf 201having the first stack 20 of items 10, for instance as shown in FIG. 4C.Other types of gripping systems may be used in sub-step 862A. Forexample, the gripping system 450 may be built into the shelf 201 and/orpockets 200 such that the gripping system 450 is already in position. Insome embodiments, the gripping system 450 slides or otherwise movesalong the shelf 201 and/or up and down the rows 142 of shelves 201 toposition the gripping system 450 adjacent a particular pocket 200 and/orshelf 201. Thus, by “adjacent,” it is meant the gripping system 450 maybe in any position near the shelf 201, including but not limited to thesides, top, front or back of the shelf 201, where the gripping system450 can cause the stack 20 to be removed from the pocket 200.

The step 860 continues with sub-step 863 wherein the gripping element480 is inserted in between the divider 360 and the rear item 10B, forinstance as shown in FIG. 4C. Sub-step 863 may make use of variousfeatures of the divider and/or gripping element to facilitate insertingthe gripping element between the items 10 in the stack 20 and thedivider 360 or the paddle 220. For instance, the divider may havegrooves or slots on the surface facing the rear item corresponding tofeatures of the gripping element to allow the gripping element to easilyfit in between the rear item and the divider.

The step 860 continues with sub-step 864 wherein the gripping element470 is inserted in between the paddle 220 and the front item 10A, forinstance as shown in FIG. 4C. Sub-step 864 may make use of variousfeatures of the paddle and/or gripping element to facilitate insertion.For instance, the paddle may have grooves or slots on the surface facingthe front item corresponding to features of the gripping element toallow the gripping element to easily fit in between the front item andthe paddle. Sub-step 864 may occur concurrently with sub-step 863, forinstance as shown in FIG. 4C. Steps 863 and 864 may also includecompression of the first stack with the inserted gripping elements. Forexample, in steps 863 and 864, the first and second gripping elements470, 480 may be inserted and then the distance between the two insertedgripping elements 470, 480 may be reduced to maintain contact on bothsides of the first stack 20.

The step 860 continues with sub-step 865 wherein the paddle 220 rotatesaway from the first stack 20, for instance in the direction 11 as shownin FIG. 4C. In sub-step 865, the paddle may rotate away from the firststack and corresponding pocket to allow for easier removal of the firststack from the pocket, for example to allow for sliding of the firststack 20 along the pocket 200 and into the tray 400.

The step 860 continues with sub-step 866 wherein the gripping elements470, 480 move the first stack 20 into the adjacently positioned tray400, for instance as shown in FIG. 4D. In sub-step 866, the first stack20 is slid along the pocket 200 and into the tray 400. In someembodiments, in sub-step 866 the gripping elements 470, 480 may graspthe first stack and rotate or otherwise remove the first stack out ofthe pocket 200, the gripping system 450 may then move to the tray 400,and then the gripping elements 470, 480 may rotate toward the tray 400to place the first stack 20 in the tray 400. These are just someexamples and other suitable approaches to moving the first stack withthe gripping system 450 into a tray may be implemented. In these orother embodiments, sub-step 866 may include the gripping elements 470,480 decompressing, for example moving farther away from each other, thefirst stack 20 in the tray 400 and rotating the gripping elements 470,480 out of the tray 400. Sub-step 866 may also include the grippingsystem 450 moving to another pocket for removal of another stack ofitems 10.

The step 860 continues with sub-step 867 wherein the paddle 220 is movedtoward the divider 360. For example, in sub-step 867 the paddle 220moves along the rail 214 of wall 210 toward the divider 360, forinstance in the direction 13 as shown in FIG. 4D. Sub-step 867 may alsoinclude rotation of the paddle 220 toward the pocket 200, for examplerotation in the direction 8 as indicated in FIG. 4D. Sub-step 867 may beperformed as soon as the first stack 20 of items 10 is removed from thepocket 200. The method 860 continues to sub-step 868, where the method860 proceeds to step 870 of FIG. 7A and performs as described above.

The flow chart sequences are illustrative only. A person of skill in theart will understand that the steps, decisions, and processes embodied inthe flowcharts described herein may be performed in an order other thanthat described herein. Thus, the particular flowcharts and descriptionsare not intended to limit the associated processes to being performed inthe specific order described.

While the above detailed description has shown, described, and pointedout novel features of the invention as applied to various embodiments,it will be understood that various omissions, substitutions, and changesin the form and details of the device or process illustrated may be madeby those skilled in the art without departing from the spirit of theinvention. As will be recognized, the present invention may be embodiedwithin a form that does not provide all of the features and benefits setforth herein, as some features may be used or practiced separately fromothers. The scope of the invention is indicated by the appended claimsrather than by the foregoing description. All changes which come withinthe meaning and range of equivalency of the claims are to be embracedwithin their scope.

The foregoing description details certain embodiments of the systems,devices, and methods disclosed herein. It will be appreciated, however,that no matter how detailed the foregoing appears in text, the systems,devices, and methods may be practiced in many ways. As is also statedabove, it should be noted that the use of particular terminology whendescribing certain features or aspects of the invention should not betaken to imply that the terminology is being re-defined herein to berestricted to including any specific characteristics of the features oraspects of the technology with which that terminology is associated.

It will be appreciated by those skilled in the art that variousmodifications and changes may be made without departing from the scopeof the described technology. Such modifications and changes are intendedto fall within the scope of the embodiments. It will also be appreciatedby those of skill in the art that parts included in one embodiment areinterchangeable with other embodiments; one or more parts from adepicted embodiment may be included with other depicted embodiments inany combination. For example, any of the various components describedherein and/or depicted in the Figures may be combined, interchanged orexcluded from other embodiments.

With respect to the use of substantially any plural and/or singularterms herein, those having skill in the art may translate from theplural to the singular and/or from the singular to the plural as isappropriate to the context and/or application. The varioussingular/plural permutations may be expressly set forth herein for sakeof clarity.

It will be understood by those within the art that, in general, termsused herein are generally intended as “open” terms (e.g., the term“including” should be interpreted as “including but not limited to,” theterm “having” should be interpreted as “having at least,” the term“includes” should be interpreted as “includes but is not limited to,”etc.). It will be further understood by those within the art that if aspecific number of an introduced claim recitation is intended, such anintent will be explicitly recited in the claim, and in the absence ofsuch recitation no such intent is present. For example, as an aid tounderstanding, the following appended claims may contain usage of theintroductory phrases “at least one” and “one or more” to introduce claimrecitations. However, the use of such phrases should not be construed toimply that the introduction of a claim recitation by the indefinitearticles “a” or “an” limits any particular claim containing suchintroduced claim recitation to embodiments containing only one suchrecitation, even when the same claim includes the introductory phrases“one or more” or “at least one” and indefinite articles such as “a” or“an” (e.g., “a” and/or “an” should typically be interpreted to mean “atleast one” or “one or more”); the same holds true for the use ofdefinite articles used to introduce claim recitations. In addition, evenif a specific number of an introduced claim recitation is explicitlyrecited, those skilled in the art will recognize that such recitationshould typically be interpreted to mean at least the recited number(e.g., the bare recitation of “two recitations,” without othermodifiers, typically means at least two recitations, or two or morerecitations). Furthermore, in those instances where a conventionanalogous to “at least one of A, B, and C, etc.” is used, in generalsuch a construction is intended in the sense one having skill in the artwould understand the convention (e.g., “a system having at least one ofA, B, and C” would include but not be limited to systems that have Aalone, B alone, C alone, A and B together, A and C together, B and Ctogether, and/or A, B, and C together, etc.). In those instances where aconvention analogous to “at least one of A, B, or C, etc.” is used, ingeneral such a construction is intended in the sense one having skill inthe art would understand the convention (e.g., “a system having at leastone of A, B, or C” would include but not be limited to systems that haveA alone, B alone, C alone, A and B together, A and C together, B and Ctogether, and/or A, B, and C together, etc.). It will be furtherunderstood by those within the art that virtually any disjunctive wordand/or phrase presenting two or more alternative terms, whether in thedescription, claims, or drawings, should be understood to contemplatethe possibilities of including one of the terms, either of the terms, orboth terms. For example, the phrase “A or B” will be understood toinclude the possibilities of “A” or “B” or “A and B.”

All references cited herein are incorporated herein by reference intheir entirety. To the extent publications and patents or patentapplications incorporated by reference contradict the disclosurecontained in the specification, the specification is intended tosupersede and/or take precedence over any such contradictory material.

The term “comprising” as used herein is synonymous with “including,”“containing,” or “characterized by,” and is inclusive or open-ended anddoes not exclude additional, unrecited elements or method steps.

All numbers expressing quantities of ingredients, reaction conditions,and so forth used in the specification and claims are to be understoodas being modified in all instances by the term “about.” Accordingly,unless indicated to the contrary, the numerical parameters set forth inthe specification and attached claims are approximations that may varydepending upon the desired properties sought to be obtained by thepresent invention. At the very least, and not as an attempt to limit theapplication of the doctrine of equivalents to the scope of the claims,each numerical parameter should be construed in light of the number ofsignificant digits and ordinary rounding approaches.

The above description discloses several methods and materials of thepresent invention. This invention is susceptible to modifications in themethods and materials, as well as alterations in the fabrication methodsand equipment. Such modifications will become apparent to those skilledin the art from a consideration of this disclosure or practice of theinvention disclosed herein. Consequently, it is not intended that thisinvention be limited to the specific embodiments disclosed herein, butthat it cover all modifications and alternatives coming within the truescope and spirit of the invention as embodied in the attached claims.

What is claimed is:
 1. A system for sorting items, the systemcomprising: a pocket comprising: an inlet; a receiving surface proximatethe inlet; a sidewall disposed along a first side of the receivingsurface; and a paddle moveably coupled with the sidewall; a sortercomprising an injector disposed proximate the inlet, the injectorconfigured to inject at least some of the items along a path into theinlet of the pocket to form a first stack in the pocket; a dividerdisposed proximate an outlet of the injector and proximate the inlet ofthe pocket, the divider having a first side and a second side oppositethe first side, and wherein the divider is moveable between a retractedposition and an extended position, wherein in the extended position thedivider is located between the outlet of the injector and the inlet ofthe pocket, and wherein in the retracted position the divider iswithdrawn from the path between the outlet of the injector and the inletof the pocket; and a controller in communicating connection with anactuator, the controller configured to receive information related tothe items and to actuate the actuator to move the divider between theretracted position and the extended position based on the information.2. The system of claim 1, wherein the items include a first and a secondplurality of items, wherein the first plurality of items form the firststack, wherein the injector is further configured to inject the secondplurality of items in the first direction toward the pocket to form asecond stack in the pocket, and wherein the second stack is locatedadjacent to the divider in the extended position with the second side ofthe divider facing generally toward the second stack, such that thedivider at least partially divides the first stack from the second stackto allow removal of the first stack from the pocket while the injectorinjects the second plurality of items.
 3. The system of claim 1, furthercomprising a sensor in communicating connection with the controller, thesensor configured to detect a characteristic of the items, wherein theinformation related to the items is based on the detectedcharacteristic.
 4. The system of claim 3, wherein the characteristiccomprises a size of the first stack.
 5. The system of claim 3, whereinthe characteristic comprises a destination for one or more of the items.6. The system of claim 3, wherein the first stack forms against thepaddle, the paddle configured to move in response to the first stackforming against the paddle.
 7. The system of claim 6, wherein the sensoris a switch disposed on the sidewall, and is configured to be switchedby the paddle as the paddle moves over the switch.
 8. The system ofclaim 1, further comprising a first gripping element coupled with agripping system and configured to remove the first stack of items fromthe pocket.
 9. The system of claim 8, wherein the first gripping elementis configured to remove the first stack of items after the divider ismoved to the extended position.
 10. The system of claim 8, furthercomprising a second gripping element coupled with the gripping system,wherein the first and second gripping elements are configured to graspthe first stack on two opposite sides of the stack and to move thegrasped first stack into a tray.
 11. The system of claim 2, wherein thereceiving surface is configured to receive the first and secondplurality of items to form the first and second stacks thereon, whereinthe sidewall and paddle are configured to position the injected firstplurality of items on the receiving surface and at least partiallyagainst the sidewall and paddle, and wherein the paddle is configured tomove in response to the first stack forming against the paddle.
 12. Thesystem of claim 11, further comprising a sensor coupled with thesidewall, the sensor configured to detect movement of the paddle. 13.The system of claim 1, further comprising a second pocket, wherein theitems include a first plurality of items and a second plurality ofitems, wherein the first plurality of items forms the first stack, andwherein the injector is further configured to inject the secondplurality of items toward the second pocket to form a stack of thesecond plurality of items in the second pocket.
 14. The system of claim13, further comprising: a plurality of the pockets including the firstand second pockets; a plurality of the injectors, each injector locatedproximate to a corresponding pocket of the plurality of pockets; and aplurality of the dividers, each divider located proximate to acorresponding injector of the plurality of injectors, wherein the sorteris configured to receive and sort the first and second pluralities ofitems based on the information to determine into which pocket of theplurality of pockets to inject the items.
 15. A method of sorting items,the method comprising: receiving the items in a sorter; injecting atleast some of the items toward a pocket, the pocket comprising asidewall and a paddle; forming a first stack in the pocket with theinjected items, wherein a first item in the first stack contacts thepaddle; and moving a divider to an extended position that is adjacent tothe first stack based on information related to at least one of theitems.
 16. The method of claim 15, further comprising detecting acharacteristic of the items, wherein the information related to at leastone of the items is based on the detected characteristic.
 17. The methodof claim 16, wherein the characteristic comprises a size of the firststack or a destination of one or more of the items.
 18. The method ofclaim 15, further comprising removing the first stack of items from thepocket.
 19. The method of claim 15, further comprising sorting the itemsinto at least a first and a second plurality of items, wherein the firstplurality of items forms the first stack and the second plurality ofitems forms a second stack.
 20. The method of claim 19, wherein thesecond stack forms in the pocket behind the extended divider.
 21. Themethod of claim 19, wherein the second stack forms in a second pocketdifferent from the first pocket.
 22. A system for sorting items, thesystem comprising: means for receiving the items in a sorter; means forinjecting at least some of the items toward a pocket; means for forminga first stack in the pocket with the injected items; and means formoving a divider to an extended position that is adjacent to the firststack based on information related to at least one of the items.